KR100397593B1 - Semi-submersible, mobile drilling vessel with storage shaft for tubular drilling equipment - Google Patents

Abstract

The semi-submersible movable drilling vessel of the present invention has a platform 11 supported on the one or more floats 1 by one or more floats 1 and one or more columns 2, 4 and having a drilling rig 7. This is provided. Further, the drilling vessel is provided with storage means 13 and 15 for tubular drilling equipment 18 such as a riser, a drilling tube, a casing or a liner. The storage means 13, 15 comprise one or more shafts 15 arranged inside the one or more columns 2, 4 and extending downward from the platform 11. Within the shaft 15, the one or more tubular drilling rigs 18 may be arranged vertically. In order to securely position the tubular drilling rig 18, the shaft 15 may be provided with a guide system such as a rack 13. In addition, the shaft 15 may be open at least at the top thereof. In addition, the shaft preferably has a watertight structure from the bottom to the freeboard deck 16.

Description

Semi-Submersible Drilling Rig with Storage Shaft for Tubular Drilling Rig {SEMI-SUBMERSIBLE, MOBILE DRILLING VESSEL WITH STORAGE SHAFT FOR TUBULAR DRILLING EQUIPMENT}

Semi-submersible mobile drilling vessels of this type are generally known. Such drilling lines generally comprise two floats, which are arranged parallel to each other with a predetermined distance therebetween, each of which is provided with two or more columns supporting the platform. On this platform drilling centers are usually arranged in the center. The platform is also equipped with crew accommodation, work areas and storage areas / storage means for drilling equipment, such as tubular drilling equipment in the form of risers, bore pipes, casings, liners and the like. This type of semi-submersible rig is originally designed for use at relatively shallow depths of up to approximately 300 meters, such as the North Sea. Drilling vessels may be transported to their intended destination, such as a catamaran with a floating body in floating position, upon arrival, the floating body is filled with ballast (usually water) to sink below the surface of the water, especially with respect to This improves the performance of drilling ships in rough seas. For drilling up to approximately 300 meters deep, there is sufficient space available on the so-called main deck of the drilling platform to store all of the tubular drilling equipment, in particular risers, drilling tubes, casings and liners. If this type of semi-submersible rig is used in the deep sea, more corresponding risers are also needed. At depths of up to approximately 800 meters, there may generally be enough space on the deck for extra risers and other required tubular drilling equipment. However, a disadvantage of this case is that the stability of the entire drilling line is reduced due to the relatively large weight stored on the main deck. However, this stability is still sufficient, as is the stability in the semi-submerged state, which is actually very important with respect to the weight gain of these risers in the drilling installation. However, most of the small submersible drilling ships of the past have not been able to carry enough drilling equipment for a depth of approximately 800 meters or more. This problem can be overcome by accommodating this type of moving rig with extra cargo ships with heavy drilling rigs, but the disadvantages are clear. Another solution is to make the drilling line larger, which further increases the manufacturing cost of the semi-submersible drilling rig.

The present invention provides a semi-submersible drilling vessel comprising at least one float and a platform supported by at least one column on the at least one float and having a drilling rig. ), The drilling vessel is provided with storage means for tubular drilling equipment such as risers, drilling tubes, casings, liners, and the like.

1 is a partial cross-sectional rear view of a semi-submersible movable drilling vessel according to the present invention.

2 is a plan view of a semi-submersible movable drilling vessel according to the present invention.

3 is a more schematic view along the longitudinal side of the drilling line according to FIGS. 1 and 2.

It is an object of the present invention to provide an improved semi-submersible borehole, specifically this type that can be used as so-called "stand alone" boreboats at depths of up to 1000 to 1100 m or in relatively deep seas as deep as possible. To provide the drilling rig.

This object is achieved according to the invention in which one or more shafts arranged in one or more columns and extending downward from the platform are provided in the storage means, in which one or more drilling rigs can be arranged vertically. The formation of extra loading space by accommodating long tubular drilling rigs inside the column, and securely storing relatively heavy tubular drilling rigs inside the column, shifts the center of load to the lower position, which is very advantageous for the stability of the drilling line. By means of a hoisting installation, or optionally a specially applied hoisting installation which is already present in this type of semi-submersible movable drilling vessel, the tubular drilling equipment stored inside the shaft (s) is perpendicular to the outside of the shaft. Can be withdrawn in a direction and arranged in a horizontal direction on a conventional handling device to be supplemented to the drilling rig, which can then be placed in the drilling rig and added to the drill string by the drilling rig.

According to the present invention, in order to prevent the load movement of the shaft and to optimally fill the shaft, according to the invention, in order to maintain a tubular drilling rig arranged perpendicular to a fixed point (relative to the horizontal plane) inside the shaft, Guide shafts, such as racks, are preferably provided on the shaft. This type of guide system may comprise, for example, one or more lattice racks arranged horizontally, each lattice opening being suitable for passage of tubular drilling equipment arranged in the shaft.

In order to easily withdraw the tubular drilling rig from the shaft and to easily place the tubular drilling rig inside the shaft, according to the invention, the shaft is open at its top (fully open) or at least open (to be fully open). It is advantageous if it can be. The tubular drilling equipment can be withdrawn from the shaft without first having to be moved to a specific removal position within the shaft. This is because the tubular drilling rig can be raised directly vertically upwards from the shaft. Conversely, the tubular drilling rig can be lowered vertically into the shaft and placed directly at a predetermined position.

In order to provide relatively easy access to the tubular drilling rig for the purpose of withdrawing from or loading into the shaft, the depth of the shaft measured from the main deck of the platform is substantially greater than the length of the tubular drilling rig to be placed therein. Small, it is advantageous for the tubular drilling rig to protrude above the main deck in a position arranged in the shaft. In this way, the upper end of the tubular drilling rig is relatively easily accessible to attach and secure the handling means for loading and withdrawing the tubular drilling rig. Another advantage is that in this way the tubular drilling rig can be stored inside the shaft having a length greater than the height of the column into which the shaft is incorporated. That is to say, the tubular drilling rig to be housed inside the shaft can be as long as desired, except that the excessive length adversely affects the stability of the entire drilling line.

In order to prevent damage to the tubular drilling rig placed inside the shaft, when this tubular drilling rig protrudes above the main deck, a protective means such as a railing or bumper system is installed around the shaft opening on the main deck and placed inside the shaft. It is preferred that the end projecting over the main deck of the tubular drilling rig is protected against mechanical shock from the outside, such as a collision. For example, damage due to parts of a vehicle or hoisting plant moving back and forth across the main deck can be prevented in this way.

In the event of a disaster, in particular in the event of a leak in the column or the floating body, in order to ensure the stability of the drilling line, according to the invention, the shaft has to be drained from the bottom to at least the so-called freeboard deck. It is good not to leak. In this way, the shaft is filled with water from the floor and then spread across the deck located below the freeboard deck to prevent disaster from occurring.

In order to be able to inspect the bottom end of the tubular drilling rig arranged inside the shaft, according to the invention, it is desirable if the operator has access to the bottom end of the shaft. In order that such accessibility does not impair the water-tightness of the shaft, according to the invention it is also advantageous if this accessibility is provided by a stairway installed inside the shaft or by a lifting facility installed inside the shaft. This staircase or elevating installation is protected from water below the freeboard deck by a watertight shaft, eliminating the need to install a door that can be watertightly sealed at the bottom end of the shaft. According to another advantageous embodiment, it is particularly advantageous in terms of the stability of the drilling line, provided that the shaft and any guide system installed therein are suitable to accommodate the risers, the heaviest of the tubular drilling equipment.

According to another advantageous embodiment, the drilling line comprises two floats arranged parallel to one another and with a space therebetween, with two or more columns provided for each float. In each floating body, it is preferred that all of these columns are arranged essentially at the same position relative to the longitudinal direction of the hull or the direction across the hull. Regarding the stability of the drilling line, different floating columns arranged in the same position in each case are provided with the same storage capacity for tubular drilling equipment, so that the weight is always evenly distributed across both sides of the drilling line. .

The invention will be described in more detail below with reference to exemplary embodiments, which are given by way of example only and are schematically illustrated in the drawings.

As shown in the figure, the semi-submersible movable drilling line includes two floats 1, which are arranged parallel to each other at predetermined intervals, each of which has two columns, i.e., a rear column 2 And front column 4 are provided. Along the hull longitudinal direction, the columns are arranged in pairs at the same position on adjacent floats, ie the rear columns 2 are located next to each other and the front columns 4 are located next to each other. It is also clear that, if desired, more columns can be installed per one floating body, and / or more floating bodies provided with one or more columns each. At the same distance on the float, the column supports the platform 5. As schematically illustrated, the platform 5 includes two hoisting or crane installations 6, a centrally located drilling installation 7, a crew accommodation and work area 8, and a helicopter platform ( 9) and a plurality of lifeboats 10 are provided. In addition, there are several storage points for drilling rigs at the rear on the main deck 11 of the platform 5, the storage points 12 being shown very schematically in a rectangle with cross marks. In particular, these storage points are intended to store drilling collars, risers, liners, casings, drilling tubes, finishing tools, auxiliary tools, and the like. By means of the hoisting / crane plant 6, such drilling rigs, such as tubular drilling rigs, can be supplied to the drilling rig 7 or they are conventional handling devices (conventionally suitable for supplying them to the drilling rig 7). Not shown).

According to the invention, the rear column 2 is provided with shafts for storing risers which are relatively heavy (approximately 15 tons) and approximately 65 feet (approximately 20 meters) long. As can be seen in particular in FIG. 2, each shaft is provided with a guide system comprising a lattice rack 13, in which thirty risers are located (6 × 5 grid sections). As shown in detail in FIG. 2, each shaft 15 is provided with a staircase 14, which extends downward from the main deck 11 into the shaft 15. The operator can descend from the main deck 11 to the bottom of the shaft 15 via this staircase 14 to check the bottom end of the riser arranged inside the shaft.

The so-called freeboard height of the drilling line is indicated by the dashed line in FIG. 1. In view of the stability of the drilling vessel in the event of a disaster, according to the present invention, the shaft 15 may be a watertight structure from the bottom to at least the freeboard height, that is, the freeboard deck 16.

In FIG. 1, reference numeral 17 designates a handrail 17 arranged around the opening of the shaft on the main deck 11. The purpose of installing this railing is to prevent the vehicle moving on the main deck 11 from colliding with the riser protruding upward from the main deck 11 to damage the riser. Handrails 17 of this type also effectively prevent other mechanical damage.

The crane installation 6 allows the risers 18 to be withdrawn from the shaft 15 one by one or several at a time, if necessary, and placed on a conventional handling device (not shown) and positioned horizontally in the drilling installation 7. Can also be pulled to the vertical position by the drilling rig 7. As such, the riser is itself known from the prior art to be moved to a vertical position by means of a facility installed in the drilling rig 7.

The movable rig ship illustrated in the figure is shown in a semi-submersible state, but it is clear that these floats are exposed to the water surface 3 by removing the ballast from the float 1 by means of a pump installation.

It is clear that various modifications can be envisaged for the drilling vessel according to the invention. For example, it is also possible to provide a front column 4 having a shaft for storing tubular drilling equipment. It is also conceivable to provide one or more columns with one or more shafts for storing tubular drilling equipment.

Claims (10)

A semi-submersible movable drilling vessel comprising two or more floats, a platform supported by one or more support columns in each of the two or more floats, and having a drilling facility, and provided with storage means for tubular drilling equipment. , The storage means comprises one or more shafts disposed in one or more of the support columns extending downward from the platform, the shafts configured such that one or more tubular drilling equipment is disposed vertically therein and vertically above the float. Wherein the support column forms an outer periphery of the drilling vessel. The semi-submersible movable drilling vessel according to claim 1, wherein the shaft is provided with a guide system such as a rack that holds the tubular drilling equipment disposed therein in a vertically fixed position. The semi-submersible movable drilling vessel according to claim 1 or 2, wherein the shaft is open or at least openable thereon. 3. A shaft according to claim 1 or 2, wherein the depth of the shaft measured from the main deck of the platform is smaller than the length of the tubular drilling equipment to be placed inside the shaft, so that the tubular drilling equipment is in the main position at the position disposed in the shaft. A semi-submersible moveable drilling vessel which protrudes above the deck. 5. A protective device, such as a railing or bumper system, is provided around the shaft opening on the main deck such that an end projecting over the main deck of the tubular drilling equipment disposed in the shaft is protected from mechanical shock such as a collision. Semi-submersible drilling rig, characterized in that. The semi-submersible movable drilling vessel according to claim 1 or 2, wherein the shaft is water-tight from the bottom to at least a freeboard deck. The semi-submersible movable drilling vessel according to claim 1 or 2, wherein the bottom end of the shaft is accessible by a worker through a staircase installed in the shaft. The semi-submersible movable drilling vessel according to claim 1 or 2, wherein the shaft and the predetermined guide system are arranged to receive a riser. The semi-submersible move according to claim 1 or 2, wherein the drilling line includes two floating bodies arranged in parallel with each other at a predetermined interval therebetween, and two or more supporting columns are provided for each floating body. Drilling ships. The semi-submersible moveable drilling vessel of claim 1, wherein the tubular drilling rig includes at least one of a riser, a drilling tube, a casing, and a liner.